On the structural performance of recycled aggregate concrete columns with glass fiber‐reinforced composite bars and hoops

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Abstract

Structural members comprising geopolymer recycled aggregate concrete (RAC) reinforced with glass fiber‐reinforced polymer (GFRP) bars have not been investigated appropriately for axial compressive loading cases. The present study addresses this knowledge gap by evaluating the structural efficiency of GFRP‐reinforced geopolymer recycled aggregate concrete (GGRAC)‐ based members subjected to axial compressive loading. A total of nine compressive members (250 mm in cross‐section and 1150 mm in height) were constructed to examine the effect of the number of longitudinal GFRP bars and the vertical spacing of transverse GFRP hoops/ties. The experimental results portrayed that the ductility of GGRAC compressive members improved with the reduction in the pitch of GFRP hoops. The axial load‐carrying capacity (LCC) of GGRAC compressive members increased by increasing the number of GFRP bars up to eight (corresponding to a reinforcement ratio of 2.11%) while it decreased by using ten longitudinal GFRP bars (corresponding to a reinforcement ratio of 2.65%). Additionally, an empirical model was suggested to predict the axial LCC of GGRAC compressive members based on a large amount of experimental data of similar members. The experimental results and related theoretical predictions substantially prove the applicability and accuracy of the proposed model. The proposed column represents a feasible structural member in terms of material availability and environmental sustainability.

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Raza, A., Rashedi, A., Rafique, U., Hossain, N., Akinyemi, B., & Naveen, J. (2021). On the structural performance of recycled aggregate concrete columns with glass fiber‐reinforced composite bars and hoops. Polymers, 13(9). https://doi.org/10.3390/polym13091508

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